2.  Law of Octaves  John Newlands(1865)  noticed repeating pattern of properties every eight elements ▪reminded him of musical scale

3.  never accepted as a law

4.  Dmitri Mendeleev  organized the elements by at. weight & physical and chemical prop.  published(Principles of Chemistry) in 1869 ▪one year before Julius Lothar Meyer(although Meyer started his research about 5 years before Mendeleev) ▪“I began to look about and write down the elements with their atomic weights and typical properties, analogous elements and like atomic weights on separate cards, and this soon convinced me that the properties of elements are in periodic dependence upon their atomic weights.” --Mendeleev, Principles of Chemistry, 1905, Vol. II  Mendeleev’s periodic law – chemical and physical prop of the elements are a periodic function of an increasing atomic mass

5.  Mendeleev’s table organized by: ▪atomic mass/weight(columns) ▪properties(rows) ▪predicted unknownelements/properties ▪eka-aluminum = gallium(68) ▪eka-silicon = germanium(70) ▪eka-boron = scandium(45) ▪possible mistake with Te(128) and I(127)???

8.  Moseley discovers atomic number (1915)  periodic law is revised ▪ chemical and physical prop. of the elements are a periodic function of an increasing atomic #  period – horizontal rows  groups/families – vertical columns ▪similar e - configuration

10. 5.2 e - config and the pd table main group elements s and p block elements

11.  group 1 – Alkali metals

12.  group 2 – Alkaline Earth metals

13.  groups 13 thru 16  no particular names  properties vary from metallic to nonmetallic

14.  Halogens – group 17  most reactive nonmetals ▪react with most metals to form salts ▪halogen(Greek) – salt maker

15.  transition metals – groups 3-12  d-orbital electrons ▪loosely held by nucleus ▪good elect. conductors ▪very malleable

16.  noble gases(inert gases) – group 18  non-reactive ▪full outer NRG level ▪stable e - configuration

17.  rare earth elements  lanthanide series ▪shiny metals ▪similar to alkaline earth metals  actinide series ▪unique nuclear structure ▪all are radioactive

18.  hydrogen  most abundant element in universe ▪75% of all atoms are H  1 p + and 1 e - ▪allows for H to bond with many of the elements

20. element song

21. 5.3 e - configuration and periodic trends  trend – a predictable change in a particular direction ▪typically restricted to main group elements 1) atomic radius  half the distance between two bonded adjacent nuclei

23.  atomic radius trend  in a group, as atomic # increases, atomic radii increases ▪valence e - in higher NRG levels ▪further from nucleus ▪more electron shielding ▪e - shielding – blockage of nuclear charge from reaching outer most e - ▪another NRG level of e - are shielding outer most e -

24.  in a period, as atomic # increases, atomic radii generally decreases  e - in same NRG level  e - shielding constant  greater nuclear charge ▪each e - feels greater positive charge pulling ▪outer e - pulled closer to nucleus

26. 2) ionization NRG  NRG added to an atom to overcome attractive forces holding e - around nucleus  NRG required to remove e - from atom A + ion. NRG  A + + e - Na + ion. NRG  Na + + e - Br + ion. NRG  Br + + e -  creates ions ▪ion – charged atom

27. ionization NRG trend  in a group, as atomic # increases, ionization NRG decreases  atoms are larger  more e - shielding ▪less nuclear attraction for outermost e - ▪less NRG required to remove e -  Li > Na > K > Rb > Cs > Fr

28. ionization NRG trend cont.  in a period, as atomic # increases, ionization NRG generally increases  atoms are smaller  e - shielding constant ▪greater nuclear attraction ▪more NRG required to remove e -  Na < Mg < Al < Si < P < S < Cl < Ar

31.  metals tend to lose e -  oxidation – chemical reaction in which a substance gains a more positive charge by losing e - ▪originally meant “to form an oxide” Na = 11p + & 11e - Na  Na + + e - = oxidation Na + = 11p + & 10e -

32. 3) e - affinity  NRG change associated with addition of an electron to atom ▪positive e - affinity(exothermic) ▪X + e -  X - + NRG ▪most elements ▪Cl + e -  Cl - + NRG ▪negative e - affinity(endothermic) ▪X + e - + NRG  X - ▪few elements  alkaline earth metals, noble gases, zn-subgroup  full orbitals  Ca + e - + NRG  Ca -

33.  periodic trend  positive e - affinity(only) ▪in a group, as atomic # increases, NRG released decreases ▪less nuclear attraction for e - ▪in a period, as atomic # increases, NRG released increases ▪greater nuclear attraction for e -

35.  nonmetals tend to gain e -  reduction – chemical reaction in which a substance gains e - and becomes more negative ▪originally meant “metal ore reduced to metal” Cl = 17p + & 17e - Cl + e -  Cl - Cl - = 17p + & 18e -

36. 4) ionic radii  size of ion after the atom has lost or gained e -  cations – positive ions ▪created when metals lose e - ▪Na + NRG  Na + + e - ▪smaller than their atom ▪size varies with # of e - lost  anions – negative ions ▪created when nonmetals gain e - ▪Cl + e -  Cl - + NRG ▪larger than their atom ▪size varies with # or e - gained

39. 5) electronegativity  attraction an atom has for other atoms e -  arbitrary scale ▪F is most electronegative = 4 ▪other elements based on attraction of F  periodic trend ▪in a group, as at. # increases, electronegativity decreases ▪less attraction due to larger atoms and e - shielding ▪in a period, as at. # increases, electronegativity increases ▪greater nuclear attraction ▪most electronegative = upper right corner – F ▪least electronegative = lower left corner – Fr

41. 6) melting and boiling points  melting point - temperature at which solid changes to liquid  boiling point – the temperature(at normal pressure) at which liquid changes to gas  periodic trend(transition metals only) ▪generally, melting and boiling points are directly related to # of unpaired e - in orbital ▪more unpaired e - the higher the melting and boiling pts.  other elements dependent on various other factors

44.  Where did the elements come from?  https://www.youtube.com/watch?v=neMEo 8ZrwuI https://www.youtube.com/watch?v=neMEo 8ZrwuI